What Do Electrical Engineering Technology Graduates Do? Would you like to apply electrical principles to contribute to the development of new and innovative technologies?

Do you want to use your knowledge of electricity and electronics to create life-changing products or improve already existing ones?

Are you passionate about playing a part in scientific advancements that will impact lives all over the world?

Electrical Engineering Technology Graduates

  • Develop, test, and manufacture electrical and electronic equipment such as communication equipment, radar, industrial and medical measuring or control devices, navigational equipment, and computers.
  • Work in product evaluation and testing, using measuring and diagnostic devices to adjust, test, and repair equipment.
  • Help design technology that is applied to a wide range of systems such as communication and process controls.
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  • Combine fundamental principles of mechanical engineering technology with knowledge of electrical and electronic circuits to design, develop, test, and manufacture electrical and computer-controlled mechanical systems.
  • Apply project management skills and prepare design and operation documents for an electrical system.


  • Product improvement
  • Manufacturing
  • Construction
  • Operational engineering functions

Famous Electrical Engineers

  • Edith Clarke – first woman to earn an electrical engineering degree from MIT and first female professor of electrical engineering at the University of Texas at Austin; specialized in electrical power system analysis
  • Nikola Tesla – Serbian American inventor, electrical engineer, mechanical engineer, and physicist best known for his contributions to the design of the modern alternating current, AC, electricity supply system
  • Guglielmo Marconi – Italian inventor and electrical engineer known for his pioneering work on long-distance radio transmission and for his development of Marconi’s law
  • Michael Faraday – English scientist whose main discoveries include electromagnetic induction, diamagnetism, electrolysis, benzene, and the Bunsen burner
  • Gerard Joseph Foschini – American telecommunications engineer whose research covered many kinds of data communications, particularly wireless communications and optical communications
  • John Bardeen – American electrical engineer who won the Nobel Prize in physics twice, first for the invention of the transistor and second for the Theory of Superconductivity

Areas of Employment

  • Biomedical
  • Computer technology
  • Green energy production/distribution
  • Aerospace and avionics
  • Transportation
  • Construction
  • Telecommunications
  • Signal processing
  • Manufacturing and testing
  • Optics and optoelectronics
  • Research and development
  • Project management
  • Electrical designer
  • Automation/controls engineer
  • Field service technician

Career Guidance Suggestions for Pre-University Students

Coursework to Consider:
  • Pre-algebra
  • Geometry
  • Advanced algebra
  • Engineering fundamentals
  • Computer-aided design
  • Circuitry
  • Digital electronics
  • Data communication
  • Project management
  • Systems analysis
  • Instrument preparation
  • Statistics
  • Research methods
  • Chemistry
  • Calculus
  • Trigonometry
  • Physics
  • Robotics
  • Programming
Suggested Extracurricular Activities:
  • Competitions
  • Summer programs
  • Afterschool programs
  • Clubs
  • Internships
  • Online puzzles and games
  • Online courses
  • Maker faires
  • Design projects
Local Programs Offered by:
  • Science centers and museums
  • Professional societies like IEEE
  • Universities
Important Skills:
  • Problem-solving skills: understand how to apply basic engineering principles to identify and solve complex technical problems.
  • Interpersonal skills: interact and collaborate on projects with designers, developers, and customers.
  • Critical thinking skills: order information clearly and logically to design complex systems.
  • Design skills: design technology that is applied to a wide range of systems such as communication and process controls.
  • Writing skills: prepare design and operation documents for electrical systems.
  • Research skills: gather data and conduct research for the development and implementation of systems.
  • Systems evaluation: identify measures or indicators of system performance and the actions needed to improve or correct performance, relative to the goals of the system.
  • Troubleshooting: determine causes of operating errors and decide what to do about it.

Links and Resources